Title: An environmentally friendly method of cutting and forming of materials by boron nitride coated tools
Authors: Bilgin Kaftanoğlu; Nihan Dökmetaş
Addresses: Department of Manufacturing Engineering, Boren Center of Competence for Boron Coatings, Atılım University, Kızılcaşar Mahallesi, 06836 İncek Gölbaşı – Ankara, Turkey ' Department of Manufacturing Engineering, Boren Center of Competence for Boron Coatings, Atılım University, Kızılcaşar Mahallesi, 06836 İncek Gölbaşı – Ankara, Turkey
Abstract: To decrease the undesirable effects on global warming and environmental pollution, manufacturing techniques should aim to use less energy, generate less pollution to the environment and aim at higher performance in shaping and cutting materials. In this paper, a new coating technique is presented for cutting and forming tools so that they can withstand higher temperatures, preserve their surface quality and cutting edge longer and require minimum quantity of lubrication (MQL) and achieve a longer life. It is known that coolants used in manufacturing cause environmental problems and their processing raises the manufacturing cost. Therefore, MQL or dry cutting is preferred if the tool material can withstand the high temperatures. A new technology of boron nitride (BN) coating using a physical vapour deposition (PVD) system is developed. BN coatings are applied on cutting tools and forming dies. Experiments and industrial applications show an increase in tool life. MQL and manufacturing at higher temperatures can be used due to the stability of BN.
Keywords: boron nitride coatings; tool coatings; physical vapour deposition; PVD; nanohardness; AFM; scratch test; confocal test; environmentally friendly machining; cutting tools; forming dies; sustainable manufacturing; minimum quantity lubrication; MQL; tool life.
International Journal of Sustainable Manufacturing, 2014 Vol.3 No.2, pp.143 - 155
Received: 08 May 2021
Accepted: 12 May 2021
Published online: 09 Jun 2014 *